DHGE: Dual-View Hyper-Relational Knowledge Graph Embedding for Link Prediction and Entity Typing

In the field of representation learning on knowledge graphs (KGs), a hyper-relational fact consists of a main triple and several auxiliary attribute-value descriptions, which is considered more comprehensive and specific than a triple-based fact. However, currently available hyper-relational KG embe...

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Veröffentlicht in:	arXiv.org 2023-03
Hauptverfasser:	Luo, Haoran, Haihong, E, Tan, Ling, Zhou, Gengxian, Yao, Tianyu, Wan, Kaiyang
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Sprache:	eng
Schlagworte:	Coders Computer Science - Artificial Intelligence Computer Science - Computation and Language Computer Science - Learning Datasets Embedding Graphical representations Hypertension Knowledge representation Learning Structural hierarchy
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creator	Luo, Haoran Haihong, E Tan, Ling Zhou, Gengxian Yao, Tianyu Wan, Kaiyang
description	In the field of representation learning on knowledge graphs (KGs), a hyper-relational fact consists of a main triple and several auxiliary attribute-value descriptions, which is considered more comprehensive and specific than a triple-based fact. However, currently available hyper-relational KG embedding methods in a single view are limited in application because they weaken the hierarchical structure that represents the affiliation between entities. To overcome this limitation, we propose a dual-view hyper-relational KG structure (DH-KG) that contains a hyper-relational instance view for entities and a hyper-relational ontology view for concepts that are abstracted hierarchically from the entities. This paper defines link prediction and entity typing tasks on DH-KG for the first time and constructs two DH-KG datasets, JW44K-6K, extracted from Wikidata, and HTDM based on medical data. Furthermore, we propose DHGE, a DH-KG embedding model based on GRAN encoders, HGNNs, and joint learning. DHGE outperforms baseline models on DH-KG, according to experimental results. Finally, we provide an example of how this technology can be used to treat hypertension. Our model and new datasets are publicly available.
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subjects	Coders Computer Science - Artificial Intelligence Computer Science - Computation and Language Computer Science - Learning Datasets Embedding Graphical representations Hypertension Knowledge representation Learning Structural hierarchy
title	DHGE: Dual-View Hyper-Relational Knowledge Graph Embedding for Link Prediction and Entity Typing
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